1.22.18 Fresh Plaza
"California Fresh Fruit Association announces speakers for annual meeting"
The California Fresh Fruit Association (CFFA) today announced the speakers for their upcoming 82nd Annual Meeting, March 25-27, 2018, in Pebble Beach, California. This year's event will feature addresses by Dr. Henrik Christensen, the Qualcomm Chancellor's Chair of Robot Systems, and Mr. Bill Bishop, Chief Architect and Co-Founder of Brick Meets Click. Both speakers will deliver passionate messages about issues that are impacting the future of California agriculture and what our industry must do to be prepared.
"The Second Coming of Ultrasound"
In the last few years, ultrasound has reinvented itself in some weird new ways. Researchers are fitting people's heads with ultrasound-emitting helmets to treat tremors and Alzheimer's. Startups are designing swallowable capsules and ultrasonically vibrating enemas to shoot drugs into the bloodstream. One company is even using the shockwaves to heal wounds. Even more intriguing though, is the possibility of using ultrasound to remotely control genetically-engineered cells. That's what new research led by Peter Yingxiao Wang, a bioengineer at UC San Diego, promises to do.
1.18.18 IEEE Spectrum
"Designing Customizable Self-Folding Swarm Robots"
Researchers at the University California, San Diego, are taking the first steps towards robotics swarms that can be rapidly customized, self-assembled, and then self-deployed, without needing tedious human intervention at every step of the way. They're laser-cut from flat sheets, can fold themselves up, and then skitter away with only a minimum of human finger-lifting. The heterogeneous swarm idea is not a new one: Insects have been doing it for ages, and it's been very effective for them.
1.17.18 Genetic Engineering & Biotechnology News
"Cancer Immunotherapy Channeled via Remote Control"
We're a long way from controlling our immune systems as easily as we might change the channels on our televisions, but a new remote-control system, in the hands of clinicians, could enable the narrowcasting of immunotherapies. For example, cancer immunotherapies could be "switched on" in solid tumors and "switched off" in healthy tissues. The new remote-control system, then, could avoid the toxicities associated with the broadcasting of cancer immunotherapy throughout the body.
1.17.18 The San Diego Union Tribune
"Cancer-fighting cells activated with ultrasound"
UC San Diego-led researchers have developed cancer-killing immune cells activated by ultrasound. Their work in cell cultures could lead to more precise cancer treatment with fewer side effects. Cells can be activated at up to 10 centimeters (nearly 4 inches), reaching deep with the body. The ultrasound method could be applied to other biological functions, either for research or clinical applications.
1.16.18 Medical News Today
"How immune cells can be controlled to kill cancer"
By engineering cancer-killing T cells that can be manipulated noninvasively by remote control, researchers have added a potentially powerful feature to an already promising type of immunotherapy known as CAR T cell therapy. In their journal report, Prof. Wang and colleagues describe how they added new features to CAR T cell therapy in which the T cells carry modules that can be manipulated to produce gene and cell changes through remotely controlled and noninvasive ultrasound.
1.10.18 Digital Journal
"The Futurist Institute Releases The Robot and Automation Almanac - 2018"
The Futurist Institute has released a groundbreaking new book, The Robot and Automation Almanac - 2018. This innovative book contains essays from 23 robot and automation experts, executives, and investors that all answer one question: What will happen for robots and automation in 2018? Jason Schenker, the Chairman of The Futurist institute and the world's leading financial futurist, has been the driving force behind The Robot and Automation Almanac - 2018. "People are interested, curious, and concerned about robots and automation. So we asked the question: What's next?
1.6.18 CBC Radio: Quirks & Quarks
"You won't believe just how sensitive our sense of touch is"
Our sense of touch is so sensitive that we can feel the difference of just a single layer of molecules, researchers have found. We can easily tell the difference between a range of surfaces, from the roughest of sand paper to a soothing caress. We read eye charts to test our visual acuity before getting behind the wheel of a car. Newborns take simple audio tests to check that they can hear before they go home with their parents. But in comparison, our sense of touch has been a bit neglected. Recently, researchers in California put our tactile sense to the test.
12.18.17 Robotics Industries Association
"Driving Robotic Rehab"
Rehabilitation robotics, although still an emerging field, is getting a shot of adrenaline because of sheer necessity. University researchers are developing novel approaches for using robotics to help our wounded veterans live more active lifestyles. Dr. Michael Yip, Assistant Professor of Electrical and Computer Engineering, and Director of the Advanced Robotics and Controls Lab (ARCLab), at the University of California San Diego is working with the U.S. Navy to create robotic orthotics and prosthetics that adjust to the wearer's activities.
12.18.17 Spectrum IEEE
"How to Build a More Resilient Power Grid"
North America's electric transmission may be an engineering marvel, but that doesn't make it immune to failure, sometimes in spectacular fashion. For proof, just mention some dates and names to Nicholas Abi-Samra and wait for his reply. Related Jacobs School Link »
12.15.17 Naked Security by SOPHOS
"Simple research tool detects 19 unknown data breaches"
Every now and then researchers come up with a security insight so simple you wonder why nobody has noticed it before. If there was an award for such discoveries, a contender for this year's prize would surely be a data breach early warning tool called Tripwire, the work of engineers at the University of California San Diego (UCSD).
12.14.17 Info Security Group
"Researchers: 1% of All Websites May Have Been Breached"
Tens of millions of websites could be hacked each year, according to researchers in San Diego who have invented a new testing tool. The team at UC San Diego's Jacobs School of Engineering claimed that 1% of sites analyzed over an 18-month period by their new "Tripwire" tool were breached. This was true of all sites irrespective of the size or reach, meaning visitors to 10 of the top 1000 most visited websites on the internet could be at risk. "No one is above this -- companies or nation states -- it's going to happen; it's just a question of when," said Alex Snoeren, the paper's senior aut
"Researchers Made a Clever Tool to Detect Hacks Companies Haven't Told Users About"
It feels only natural that 2017 would be the year we experienced one of the worst security breaches of all time. The Equifax hack affected 145.5 million U.S. consumers, but what's really shady is that the credit report company suffered another breach months before the one they disclosed in September. And trying to keep users in the dark for the sake of optics isn't an uncommon move. It took Yahoo almost a year to inform the public that it wasn't just a billion user accounts that were compromised. It was all of them.
12.12.17 CSO from IDG
"Researchers' tool uncovers website breaches"
Researchers from the University of California San Diego (UCSD) designed a prototype system to determine if websites were hacked. They conducted their study and monitored over 2,300 sites from January 2015 to February 2017. In the end, the system detected 1 percent, or 19 sites, were compromised, "including what appears to be a plaintext password compromise at an Alexa top-500 site with more than 45 million active users." None of the sites disclosed the breach to their customers.
12.9.17 Crazy Engineers
"New glucose-monitoring smartphone case to offer blood-glucose check on the go"
In a world which is getting increasingly digi-savvy, health monitoring via the aid of technology seems to be the most logical thing. In a new breakthrough, Engineers at the University of California San Diego have developed a smartphone case and app which will make it easier for patients to record and track their blood glucose readings both at home or on the go. The glucose-monitoring kits which are widely used currently are carried as a separate device by patients; thus, integrating blood glucose sensing into a smartphone could effectively eliminate this need.
12.8.17 Slash Gear
"UC San Diego engineers create glucose monitoring phone case"
There has been a big push to get smartphones to record health data over the last few years. Engineers at the University of California San Diego have developed a new smartphone case that is able to check blood glucose levels for diabetics at home or on the go. The device is called GPhone.
"Researchers develop a smartphone case that monitors blood sugar levels on the go"
People with diabetes may soon be able to go on a vacation without their glucose monitoring kits with them. Researchers have developed a smartphone case and app that can record and track their blood glucose readings, wherever they are.
12.8.17 R&D Magazine
"Smartphone Case Can Monitor Blood Glucose"
Glucose testing on the go is about to get much easier, with the creation of a new smartphone case glucose test. A team of engineers from the University of California San Diego has created a new smartphone case and application that allows diabetics to record and track their blood glucose readings in about 20 seconds. The sensing system, called the GPhone, includes a slim, 3D printed case that fits over a smartphone with a permanent, reusable sensor on one corner and small, one-time use, enzyme-packed pellets that magnetically attach to the sensor.
12.8.17 The Parallax
"Hackable software in the driver's seat"
Cars and computers have an increasingly close yet complicated friendship. Specialized software now connects to everything from the brakes to the steering wheel to the door locks to the radio. And in newer models, it likely connects to the Internet too. So what are the chances that your car is going to get hacked? What kind of havoc could a car hacker wreak? And what are automakers doing to make their cars, including those designed to drive autonomously, more resistant to hackers?
12.7.17 New Atlas
"This smartphone case analyzes blood"
What do cameras, audio recorders, and music players have in common? They're all things that we no longer have to carry around separately, since they're built into smartphones. Diabetics may soon be able to add blood glucose-measuring kits to that list, as scientists from the University of California San Diego have created a phone case that does the job.